有机高分子固载钯催化剂的羰基化和加氢催化性能

本文利用耐温性能较好的主链上含有多个配位原子(N,O)能成膜的直链高分子杂环联苯聚醚酮(PEK),带酚酞侧基的聚醚砜(PES-C)和两种聚酰亚胺(PCK和PIK)为载体固载PdCl~2,制备了高分子固载钯催化剂。研究了它们在烯丙基溴的常压羰基化反应和1-辛烯的常压加氢反应中的催化性能。考察了催化剂的制备方法、Pd含量、溶剂和高分子的主链结构对催化剂活性的影响。催化剂Pd-PEK(Ⅰ) (Pd wt%=0.22%)和Pd-PES-C(Ⅱ)(Pd wt%=0.28%)在温和的条件下对上述两反应都表现出了很高的催化活性。在极低的Pd含量(Pd wt%=0.04%)时,催化剂Pd-PES-C(Ⅲ)显示出了特别高的初活性,TOF~m~a~x分别达345mol CO/mol Pd·min和493mol H~2/mol Pd·min。实验结果表明制备方法等因素对催化剂的活性有很大的影响。     

丁烯异构化L-H机理复杂反应动力学

用玻璃外循环无梯度反应器研究了丁烯异构化L-H机理复杂反应动力学. 用正交设计法估计了动力学方程中的参数. 色谱法测定了丁烯吸附热, 并研究了异构化生成反-2-丁烯及顺-2-丁烯的动力学方程.     

TOMOGRAPHY FORMULA FOR BIOCHEMICAL IMAGING OF THIN TISSUE WITH DIFFUSE-PHOTON DENSITY WAVES

Using the transport theory to describe the near infrared light propagating in tissue with finite parallel-plane geometry, and taking the zero-boundary condition, we obtain the analytical expression of average photon density and Green's function incorporating the boundary effects in the homogeneous tissure. Making use of perturbation theory we also obtain the analytical expression of scattered wave induced by the heterogeneity, and present the 2-dimensional spatial transform of scattered wave with respect to transverse coordinate. If the information of heterogeneity on depth and thickness is available, diffraction tomography formula is presented to save the time of image reconstruction; if the information is unknown, we suggest to obtain the inhomogeneous function from the one-dimensional integral equation of 2-dimensional spatial transform of scattered wave applying the direct matrix method or iterative method for image reconstruction. This approach avoids directly solving three-dimensional integral equation of scattered wave. In our proposed approach the strong points of the direct matrix method, iterative method, and diffraction tomography are fully combined.     

A Kind of MM-Wave TV Translating System

This article presents a kind of MM-wave TV translating system, describes the hardware composition and operating characteristics of the system. The adjustment and test of this system have been completed successfully and the system will be formally used soon.     

混合物质原子结构的自洽场计算

基于含温有界Hartree-Fock-Slater相对论自洽场平均原子模型,应用体积相加原理,计算混合物质的原子结构.给出了求解混合物的Thomas-Fermi方程以及自洽场原子结构的方法,并就一些计算结果作了讨论. 关键词： 混合物 原子结构 Thomas-Fermi模型     

基于实时操作系统的光电稳定自适应模糊PI复合控制方法研究

针对经典稳定控制理论存在超调与快速性之间难以调和的矛盾,建立了稳定控制系统数学模型,采用自适应模糊实现控制的快速性,用PI保证系统的稳态精度,以误差为模糊控制的输入,设计一种实用的自适应模糊和PI复合控制系统,并在基于VxWorks实时操作系统的数字平台上得以实现.仿真和试验表明:设计的新型自适应模糊PI复合控制系统超调量为0,调节时间约8 ms,带宽约29 Hz.     

Analysis of Nanostructural Waveguides Using Fourth-Order Accurate Finite Difference Methods with Nonuniform Scheme

We successfully apply fourth-order accurate finite difference methods with nonuniform scheme to analysis the symmetric slot waveguides. The results of numerical simulations show that the present nonuniform formula offers the results more accurate than the previously presented second order schemes.     

超高效液相色谱-串联质谱法同时测定牛奶和奶粉中的二氰二胺、三聚氰胺和三聚氰酸

建立了一种超高效液相色谱-串联质谱法测定牛奶和奶粉中二氰二胺(DCD)、三聚氰胺(MEL)和三聚氰酸(CY)的分析方法。样品用5%(质量分数)三氯乙酸水溶液提取,无需净化和浓缩,用Acquity UPLC HSS T3色谱柱(50 mm×2.1 mm, 1.8 μm)分离,以乙腈和乙酸铵作为流动相进行梯度洗脱,电喷雾正、负离子(ESI^±)模式同时电离,多反应监测模式进行检测。结果表明:在5.0～200.0 μg/L范围内线性关系良好(r≥0.995)。牛奶中3种化合物在0.02、0.10、0.20 mg/kg的添加回收率为60.0%～105.8%,相对标准偏差(RSD, n=6)为4.2%～13.6%;奶粉中3种化合物在0.05、0.10、0.20 mg/kg的添加回收率为78.0%～115.0%, RSD (n=6)为2.7%～7.5%。牛奶中方法的定量限(信噪比为10)为0.02 mg/kg,奶粉中方法的定量限为0.05 mg/kg。该方法简单、快速、灵敏、准确,适合于牛奶、奶粉等乳及乳制品中DCD、MEL和CY的快速、高灵敏的分析检测。     

应力各向异性下耦合三层薄膜铁磁共振

研究铁磁/铁磁/反铁磁三层薄膜中应力各向异性场对共振场的影响.得到系统存在声学和光学两种模,并且随着应力场的增强,在某些区域声学模和光学模共振场均向高值方向移动.此外发现声学模共振场对两铁磁层厚度的依赖较大,对光学模而言,随着两铁磁层厚度的改变,应力各向异性场对其共振场的影响甚微.     

基于飞行时间技术的PET发展历史与现状

简要介绍了基于飞行时间（Time of Flight, 简称TOF）技术的正电子发射断层扫描成像（Positron Emission Tomography, 简称PET）的基本原理, 回顾了TOF-PET成像设备的发展历史, 讨论了影响TOF PET时间分辨率的主要因素, 并对TOF-PET给图像重建技术带来的挑战进行了分析。 最后, 重点介绍了TOF-PET技术所带来的优势, 使用TOF技术可以有效地改善图像质量, 并且为临床诊断和临床前研究带来便利。 The principle of time of flight (TOF) positron emission tomography (PET) and a brief review of the history of TOF-PET are introduced. The factors influencing the time resolution of a TOF-PET scanner are presented, especially focus on the intrinsic properties of scintillators and front end electronics. Challenges and achievements of the structure of data organization and image reconstruction are reviewed. Finally, the benefits of TOF-PET on image quality improvement and tumor detection are emphasized.